/*
 * Licensed to the Apache Software Foundation (ASF) under one
 * or more contributor license agreements. See the NOTICE file
 * distributed with this work for additional information
 * regarding copyright ownership. The ASF licenses this file
 * to you under the Apache License, Version 2.0 (the
 * "License"); you may not use this file except in compliance
 * with the License. You may obtain a copy of the License at
 *
 *   http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing,
 * software distributed under the License is distributed on an
 * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
 * KIND, either express or implied. See the License for the
 * specific language governing permissions and limitations
 * under the License.
 */

#ifndef _THRIFT_PROTOCOL_TPROTOCOL_H_
#define _THRIFT_PROTOCOL_TPROTOCOL_H_ 1

#include <thrift/transport/TTransport.h>
#include <thrift/protocol/TProtocolException.h>

#include <boost/shared_ptr.hpp>
#include <boost/static_assert.hpp>

#include <sys/types.h>
#include <string>
#include <map>
#include <vector>

// Use this to get around strict aliasing rules.
// For example, uint64_t i = bitwise_cast<uint64_t>(returns_double());
// The most obvious implementation is to just cast a pointer,
// but that doesn't work.
// For a pretty in-depth explanation of the problem, see
// http://www.cellperformance.com/mike_acton/2006/06/ (...)
// understanding_strict_aliasing.html
template <typename To, typename From>
static inline To bitwise_cast(From from)
{
  BOOST_STATIC_ASSERT(sizeof(From) == sizeof(To));
  union {
    From f;
    To t;
  } u;
  u.f = from;
  return u.t;
}

#include <thrift/TCoding.h>

namespace apache {
namespace thrift {
namespace protocol {

using apache::thrift::transport::TTransport;

/**
 * Enumerated definition of the types that the Thrift protocol supports.
 * Take special note of the T_END type which is used specifically to mark
 * the end of a sequence of fields.
 */
enum TType {
  T_STOP       = 0,
  T_VOID       = 1,
  T_BOOL       = 2,
  T_BYTE       = 3,
  T_I08        = 3,
  T_I16        = 6,
  T_I32        = 8,
  T_U64        = 9,
  T_I64        = 10,
  T_DOUBLE     = 4,
  T_STRING     = 11,
  T_UTF7       = 11,
  T_STRUCT     = 12,
  T_MAP        = 13,
  T_SET        = 14,
  T_LIST       = 15,
  T_UTF8       = 16,
  T_UTF16      = 17
};

/**
 * Enumerated definition of the message types that the Thrift protocol
 * supports.
 */
enum TMessageType {
  T_CALL       = 1,
  T_REPLY      = 2,
  T_EXCEPTION  = 3,
  T_ONEWAY     = 4
};


/**
 * Helper template for implementing TProtocol::skip().
 *
 * Templatized to avoid having to make virtual function calls.
 */
template <class Protocol_>
uint32_t skip(Protocol_& prot, TType type)
{
  switch (type) {
  case T_BOOL: {
    bool boolv;
    return prot.readBool(boolv);
  }
  case T_BYTE: {
    int8_t bytev;
    return prot.readByte(bytev);
  }
  case T_I16: {
    int16_t i16;
    return prot.readI16(i16);
  }
  case T_I32: {
    int32_t i32;
    return prot.readI32(i32);
  }
  case T_I64: {
    int64_t i64;
    return prot.readI64(i64);
  }
  case T_DOUBLE: {
    double dub;
    return prot.readDouble(dub);
  }
  case T_STRING: {
    std::string str;
    return prot.readBinary(str);
  }
  case T_STRUCT: {
    uint32_t result = 0;
    std::string name;
    int16_t fid;
    TType ftype;
    result += prot.readStructBegin(name);
    while (true) {
      result += prot.readFieldBegin(name, ftype, fid);
      if (ftype == T_STOP) {
        break;
      }
      result += skip(prot, ftype);
      result += prot.readFieldEnd();
    }
    result += prot.readStructEnd();
    return result;
  }
  case T_MAP: {
    uint32_t result = 0;
    TType keyType;
    TType valType;
    uint32_t i, size;
    result += prot.readMapBegin(keyType, valType, size);
    for (i = 0; i < size; i++) {
      result += skip(prot, keyType);
      result += skip(prot, valType);
    }
    result += prot.readMapEnd();
    return result;
  }
  case T_SET: {
    uint32_t result = 0;
    TType elemType;
    uint32_t i, size;
    result += prot.readSetBegin(elemType, size);
    for (i = 0; i < size; i++) {
      result += skip(prot, elemType);
    }
    result += prot.readSetEnd();
    return result;
  }
  case T_LIST: {
    uint32_t result = 0;
    TType elemType;
    uint32_t i, size;
    result += prot.readListBegin(elemType, size);
    for (i = 0; i < size; i++) {
      result += skip(prot, elemType);
    }
    result += prot.readListEnd();
    return result;
  }
  case T_STOP:
  case T_VOID:
  case T_U64:
  case T_UTF8:
  case T_UTF16:
    break;
  }
  return 0;
}

static const uint32_t DEFAULT_RECURSION_LIMIT = 64;

/**
 * Abstract class for a thrift protocol driver. These are all the methods that
 * a protocol must implement. Essentially, there must be some way of reading
 * and writing all the base types, plus a mechanism for writing out structs
 * with indexed fields.
 *
 * TProtocol objects should not be shared across multiple encoding contexts,
 * as they may need to maintain internal state in some protocols (i.e. XML).
 * Note that is is acceptable for the TProtocol module to do its own internal
 * buffered reads/writes to the underlying TTransport where appropriate (i.e.
 * when parsing an input XML stream, reading should be batched rather than
 * looking ahead character by character for a close tag).
 *
 */
class TProtocol {
public:
  virtual ~TProtocol()
  {
  
  }

  /**
   * Writing functions.
   */

  virtual uint32_t writeMessageBegin_virt(const std::string& name,
                                          const TMessageType messageType,
                                          const int32_t seqid) = 0;

  virtual uint32_t writeMessageEnd_virt() = 0;

  virtual uint32_t writeStructBegin_virt(const char* name) = 0;

  virtual uint32_t writeStructEnd_virt() = 0;

  virtual uint32_t writeFieldBegin_virt(const char* name,
                                        const TType fieldType,
                                        const int16_t fieldId) = 0;

  virtual uint32_t writeFieldEnd_virt() = 0;

  virtual uint32_t writeFieldStop_virt() = 0;

  virtual uint32_t writeMapBegin_virt(const TType keyType, const TType valType, const uint32_t size) = 0;

  virtual uint32_t writeMapEnd_virt() = 0;

  virtual uint32_t writeListBegin_virt(const TType elemType, const uint32_t size) = 0;

  virtual uint32_t writeListEnd_virt() = 0;

  virtual uint32_t writeSetBegin_virt(const TType elemType, const uint32_t size) = 0;

  virtual uint32_t writeSetEnd_virt() = 0;

  virtual uint32_t writeBool_virt(const bool value) = 0;

  virtual uint32_t writeByte_virt(const int8_t byte) = 0;

  virtual uint32_t writeI16_virt(const int16_t i16) = 0;

  virtual uint32_t writeI32_virt(const int32_t i32) = 0;

  virtual uint32_t writeI64_virt(const int64_t i64) = 0;

  virtual uint32_t writeDouble_virt(const double dub) = 0;

  virtual uint32_t writeString_virt(const std::string& str) = 0;

  virtual uint32_t writeBinary_virt(const std::string& str) = 0;

  uint32_t writeMessageBegin(const std::string& name,
                             const TMessageType messageType,
                             const int32_t seqid)
  {
    T_VIRTUAL_CALL();
    return writeMessageBegin_virt(name, messageType, seqid);
  }

  uint32_t writeMessageEnd()
  {
    T_VIRTUAL_CALL();
    return writeMessageEnd_virt();
  }

  uint32_t writeStructBegin(const char* name)
  {
    T_VIRTUAL_CALL();
    return writeStructBegin_virt(name);
  }

  uint32_t writeStructEnd()
  {
    T_VIRTUAL_CALL();
    return writeStructEnd_virt();
  }

  uint32_t writeFieldBegin(const char* name, const TType fieldType, const int16_t fieldId)
  {
    T_VIRTUAL_CALL();
    return writeFieldBegin_virt(name, fieldType, fieldId);
  }

  uint32_t writeFieldEnd()
  {
    T_VIRTUAL_CALL();
    return writeFieldEnd_virt();
  }

  uint32_t writeFieldStop()
  {
    T_VIRTUAL_CALL();
    return writeFieldStop_virt();
  }

  uint32_t writeMapBegin(const TType keyType, const TType valType, const uint32_t size)
  {
    T_VIRTUAL_CALL();
    return writeMapBegin_virt(keyType, valType, size);
  }

  uint32_t writeMapEnd()
  {
    T_VIRTUAL_CALL();
    return writeMapEnd_virt();
  }

  uint32_t writeListBegin(const TType elemType, const uint32_t size)
  {
    T_VIRTUAL_CALL();
    return writeListBegin_virt(elemType, size);
  }

  uint32_t writeListEnd()
  {
    T_VIRTUAL_CALL();
    return writeListEnd_virt();
  }

  uint32_t writeSetBegin(const TType elemType, const uint32_t size)
  {
    T_VIRTUAL_CALL();
    return writeSetBegin_virt(elemType, size);
  }

  uint32_t writeSetEnd()
  {
    T_VIRTUAL_CALL();
    return writeSetEnd_virt();
  }

  uint32_t writeBool(const bool value)
  {
    T_VIRTUAL_CALL();
    return writeBool_virt(value);
  }

  uint32_t writeByte(const int8_t byte)
  {
    T_VIRTUAL_CALL();
    return writeByte_virt(byte);
  }

  uint32_t writeI16(const int16_t i16)
  {
    T_VIRTUAL_CALL();
    return writeI16_virt(i16);
  }

  uint32_t writeI32(const int32_t i32)
  {
    T_VIRTUAL_CALL();
    return writeI32_virt(i32);
  }

  uint32_t writeI64(const int64_t i64)
  {
    T_VIRTUAL_CALL();
    return writeI64_virt(i64);
  }

  uint32_t writeDouble(const double dub)
  {
    T_VIRTUAL_CALL();
    return writeDouble_virt(dub);
  }

  uint32_t writeString(const std::string& str)
  {
    T_VIRTUAL_CALL();
    return writeString_virt(str);
  }

  uint32_t writeBinary(const std::string& str)
  {
    T_VIRTUAL_CALL();
    return writeBinary_virt(str);
  }

  /**
   * Reading functions
   */

  virtual uint32_t readMessageBegin_virt(std::string& name,
                                         TMessageType& messageType,
                                         int32_t& seqid) = 0;

  virtual uint32_t readMessageEnd_virt() = 0;

  virtual uint32_t readStructBegin_virt(std::string& name) = 0;

  virtual uint32_t readStructEnd_virt() = 0;

  virtual uint32_t readFieldBegin_virt(std::string& name, TType& fieldType, int16_t& fieldId) = 0;

  virtual uint32_t readFieldEnd_virt() = 0;

  virtual uint32_t readMapBegin_virt(TType& keyType, TType& valType, uint32_t& size) = 0;

  virtual uint32_t readMapEnd_virt() = 0;

  virtual uint32_t readListBegin_virt(TType& elemType, uint32_t& size) = 0;

  virtual uint32_t readListEnd_virt() = 0;

  virtual uint32_t readSetBegin_virt(TType& elemType, uint32_t& size) = 0;

  virtual uint32_t readSetEnd_virt() = 0;

  virtual uint32_t readBool_virt(bool& value) = 0;

  virtual uint32_t readBool_virt(std::vector<bool>::reference value) = 0;

  virtual uint32_t readByte_virt(int8_t& byte) = 0;

  virtual uint32_t readI16_virt(int16_t& i16) = 0;

  virtual uint32_t readI32_virt(int32_t& i32) = 0;

  virtual uint32_t readI64_virt(int64_t& i64) = 0;

  virtual uint32_t readDouble_virt(double& dub) = 0;

  virtual uint32_t readString_virt(std::string& str) = 0;

  virtual uint32_t readBinary_virt(std::string& str) = 0;

  uint32_t readMessageBegin(std::string& name, TMessageType& messageType, int32_t& seqid)
  {
    T_VIRTUAL_CALL();
    return readMessageBegin_virt(name, messageType, seqid);
  }

  uint32_t readMessageEnd()
  {
    T_VIRTUAL_CALL();
    return readMessageEnd_virt();
  }

  uint32_t readStructBegin(std::string& name)
  {
    T_VIRTUAL_CALL();
    return readStructBegin_virt(name);
  }

  uint32_t readStructEnd()
  {
    T_VIRTUAL_CALL();
    return readStructEnd_virt();
  }

  uint32_t readFieldBegin(std::string& name, TType& fieldType, int16_t& fieldId)
  {
    T_VIRTUAL_CALL();
    return readFieldBegin_virt(name, fieldType, fieldId);
  }

  uint32_t readFieldEnd()
  {
    T_VIRTUAL_CALL();
    return readFieldEnd_virt();
  }

  uint32_t readMapBegin(TType& keyType, TType& valType, uint32_t& size)
  {
    T_VIRTUAL_CALL();
    return readMapBegin_virt(keyType, valType, size);
  }

  uint32_t readMapEnd()
  {
    T_VIRTUAL_CALL();
    return readMapEnd_virt();
  }

  uint32_t readListBegin(TType& elemType, uint32_t& size)
  {
    T_VIRTUAL_CALL();
    return readListBegin_virt(elemType, size);
  }

  uint32_t readListEnd()
  {
    T_VIRTUAL_CALL();
    return readListEnd_virt();
  }

  uint32_t readSetBegin(TType& elemType, uint32_t& size)
  {
    T_VIRTUAL_CALL();
    return readSetBegin_virt(elemType, size);
  }

  uint32_t readSetEnd()
  {
    T_VIRTUAL_CALL();
    return readSetEnd_virt();
  }

  uint32_t readBool(bool& value)
  {
    T_VIRTUAL_CALL();
    return readBool_virt(value);
  }

  uint32_t readByte(int8_t& byte)
  {
    T_VIRTUAL_CALL();
    return readByte_virt(byte);
  }

  uint32_t readI16(int16_t& i16)
  {
    T_VIRTUAL_CALL();
    return readI16_virt(i16);
  }

  uint32_t readI32(int32_t& i32)
  {
    T_VIRTUAL_CALL();
    return readI32_virt(i32);
  }

  uint32_t readI64(int64_t& i64)
  {
    T_VIRTUAL_CALL();
    return readI64_virt(i64);
  }

  uint32_t readDouble(double& dub)
  {
    T_VIRTUAL_CALL();
    return readDouble_virt(dub);
  }

  uint32_t readString(std::string& str)
  {
    T_VIRTUAL_CALL();
    return readString_virt(str);
  }

  uint32_t readBinary(std::string& str)
  {
    T_VIRTUAL_CALL();
    return readBinary_virt(str);
  }

  /*
   * std::vector is specialized for bool, and its elements are individual bits
   * rather than bools.   We need to define a different version of readBool()
   * to work with std::vector<bool>.
   */
  uint32_t readBool(std::vector<bool>::reference value)
  {
    T_VIRTUAL_CALL();
    return readBool_virt(value);
  }

  /**
   * Method to arbitrarily skip over data.
   */
  uint32_t skip(TType type)
  {
    T_VIRTUAL_CALL();
    return skip_virt(type);
  }
  
  virtual uint32_t skip_virt(TType type)
  {
    return ::apache::thrift::protocol::skip(*this, type);
  }

  inline boost::shared_ptr<TTransport> getTransport()
  {
    return ptrans_;
  }

  // TODO: remove these two calls, they are for backwards
  // compatibility
  inline boost::shared_ptr<TTransport> getInputTransport()
  {
    return ptrans_;
  }
  
  inline boost::shared_ptr<TTransport> getOutputTransport()
  {
    return ptrans_;
  }

  void incrementRecursionDepth()
  {
    if (recursion_limit_ < ++recursion_depth_) {
      throw TProtocolException(TProtocolException::DEPTH_LIMIT);
    }
  }

  void decrementRecursionDepth()
  {
    --recursion_depth_;
  }

protected:
  TProtocol(const boost::shared_ptr<TTransport>& ptrans)
    : ptrans_(ptrans)
    , recursion_depth_(0)
    , recursion_limit_(DEFAULT_RECURSION_LIMIT)
  {
  
  }

  boost::shared_ptr<TTransport> ptrans_;

private:
  TProtocol()
  {
  
  }

private:
  uint32_t recursion_depth_;
  uint32_t recursion_limit_;
};

/**
 * Constructs input and output protocol objects given transports.
 */
class TProtocolFactory
{
public:
  TProtocolFactory()
  {
  
  }

  virtual ~TProtocolFactory()
  {
  
  }

  virtual boost::shared_ptr<TProtocol> getProtocol(const boost::shared_ptr<TTransport>& trans) = 0;
};

/**
 * Dummy protocol class.
 *
 * This class does nothing, and should never be instantiated.
 * It is used only by the generator code.
 */
class TDummyProtocol : public TProtocol
{

};

}
}
} // apache::thrift::protocol

#endif // #define _THRIFT_PROTOCOL_TPROTOCOL_H_ 1
